Media content playback for a group of users

ABSTRACT

Methods, systems, and computer programs for generating a playlist of media content items for a group of users. Media content items listened to by the selected users are compared to an average user taste profile to select media content items for playback to the group of users.

BACKGROUND

Media distribution (e.g. streaming) platforms have allowed consumersunprecedented access to large catalogs of media content, such as songsand videos. It is common for these platforms to include features thatrecommend media to users based on a designated style of use, forexample, songs suitable for a certain style of dance, or videos suitablefor a certain activity such as an exercise workout or a cooking lesson.

A problem with such audio players and applications is that they do notprovide a way for multiple users to have input into a single playlist.Generally, one user controls the creation of a playlist or a queue ofmedia content items to be played in a group setting. Often times, whenmultiple users are gathered together and desire to listen to music orconsume other media content items, the other users may not have anyinvolvement in the selection of what is being played.

SUMMARY

In general terms, this disclosure is directed to media content playbackfor a group of users. In some embodiments, and by non-limiting example,a group playlist is generated that is composed of media content itemsselected for a specific group of users.

One aspect is a method of generating a playlist of media content itemsfor a group of users, the method comprising: identifying a first user ofthe group and determining a first user taste profile; identifying asecond user of the group and determining a second user taste profile;generating a group taste profile based on at least the first and seconduser taste profiles, and generating a group taste profile vector in amulti-dimensional vector space representing taste profile of the group;generating a list of candidate media content items selected from atleast a first user media consumption history and a second user mediaconsumption history, and generating media content item vectors for eachof the media content items in the multi-dimensional vector space; foreach media content item in the list of candidate media content items,computing a distance between the respective media content item vectorand the group taste profile vector, and ranking the list of candidatemedia content items based on the distance; and generating a playlistselected from the ranked list of candidate media content items.

Another aspect is a system comprising non-transitory memory and at leastone processing device in data communication with the memory, wherein thememory stores data instructions that, when executed by the at least oneprocessing device, cause the at least one processing device to: receivea request to generate a group playlist; identify a first user of thegroup and determine a first user taste profile; receive a selection ofat least one other user of the group and determine a user taste profilefor each other user of the group; generate a group taste profile basedon an average of the first user taste profile and the user tasteprofiles for each other user of the group, and represent the group usertaste profile as a group profile vector in a multi-dimensional vectorspace, the dimensions of the multi-dimensional vector spacecorresponding to characteristics of media content; generate a list ofcandidate media content items from media consumption histories of thefirst user and the at least one other user of the group, and generatemedia content item vectors for each of the media content items of thelist of candidate media content items in the multi-dimensional vectorspace; rank the media content items of the list of candidate mediacontent items based on a distance between the respective media contentitem vector and the group taste profile vector; and generate the groupplaylist by selecting media content items from the ranked list ofcandidate media content items.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram illustrating an example media playbacksystem for generating and playing a group playlist for a group of users.

FIG. 2 is a schematic block diagram illustrating another example of themedia playback system shown in FIG. 1.

FIG. 3 illustrates an example method of generating the group playlistshown in FIG. 1.

FIG. 4 illustrates an example user interface for generating a groupplaylist.

FIG. 5 illustrates an example user interface for selecting a group ofusers for the group playlist.

FIG. 6 illustrates an example method of generating a group playlist.

FIG. 7 illustrates examples of user taste profiles.

FIG. 8 is a schematic diagram illustrating an example method ofgenerating a group taste profile.

FIG. 9 is a schematic block diagram illustrating an example method ofgenerating a list of candidate media content items.

FIG. 10 is a schematic diagram illustrating of an examplemulti-dimensional vector space and illustrating an example method ofanalyzing and comparing individual media content items of a list ofcandidate media content items with a group taste profile.

FIG. 11 illustrates an example user interface for displaying andplayback of the group playlist.

DETAILED DESCRIPTION

Various embodiments will be described in detail with reference to thedrawings, wherein like reference numerals represent like parts andassemblies throughout the several views. Reference to variousembodiments does not limit the scope of the claims attached hereto.Additionally, any examples set forth in this specification are notintended to be limiting and merely set forth some of the many possibleembodiments for the appended claims.

A playlist can be generated that includes a list of media contentselected for playback to a group of people (herein often referred to as“users”). Media content items can include audio and video content.Examples of audio content include music, podcasts, audiobooks, and otheraudible content. Examples of video content include movies, music videos,television programs, and other visible media content. In many cases,video content also includes audio content.

FIG. 1 is a schematic diagram illustrating an example media playbacksystem 100 for generating and playing a playlist 120 for a group ofusers 130. In this example, the media playback system 100 includes amedia playback device 102 and a media delivery system 150. The mediaplayback device 102 and the media delivery system 150 can communicatewith each other over a network 110. Also shown in FIG. 1 are a group ofusers 130, including a primary user U who is at a gathering with otherusers A, B, and C.

In some embodiments, the group of users includes a group of people whoare gathered together at a common location, such as at a commongathering such as a party, meeting, dinner, or other event. In someembodiments the people are physically located together, such as being inclose proximity to each other (e.g., in the same building, room, orarea). In other possible embodiments, at least some of the users can begathered together virtually, such as through a telephone, videoconferencing, or online gaming system. The group of users is gatheredtogether in such a way that they can each hear media content played bythe media playback system 100, through one or more media playbackdevices 102.

The media playback system 100 operates to generate a group playlist 120suitable for the group of users 130, such as by taking intoconsideration the listening tastes of each of the users U, A, B, and C.In some embodiments the listening tastes can include both likes anddislikes, so that media content that the users are likely tocollectively enjoy is selected for inclusion in the group playlist 120,whereas media content that at least some of the users are not likely toenjoy is excluded from the group playlist 120.

In some embodiments the media playback device 102 is a computing device,such as a user device, that is usable by at least the primary user U andoperable to generate, or receive, and playback the group playlist 120.The media playback device 102 can include visual components (e.g.,displays for output and cameras for input), audio components (e.g.,speakers for output and microphones for input), tactile components(e.g., buttons, keyboard, mouse, touch-sensitive display, etc. forinput), and combinations thereof.

Some embodiments include a media delivery system 150 that provides mediacontent to the media playback device 102, such as by streaming the mediacontent items across a network 110, such as the Internet.

The media playback device 102 receives input from a user U and providesoutput, such as by playing media content items 122 to the user U. Themedia playback device 102 can include visual components (e.g., displaysfor output and cameras for input), audio components (e.g., speakers foroutput and microphones for input), tactile components (e.g., hapticfeedback actuators for output and buttons for input), and combinationsthereof.

The network 110 enables data communication between devices, such asbetween the media playback device 102 and the media delivery system 150.The network 110 can include any type of wired or wireless datacommunication network, and combinations thereof. Examples of the network110 include the Internet, an intranet, a wide area network (WAN), alocal area network (LAN), and a virtual private network (VPN), cellularnetwork connections, WI-FI networks using protocols such as 802.11a, b,g, n and/or ac, or other data communication channels or protocols.

In some embodiments the media delivery system 150 includes a server thatis a computing device remote from the media playback device 102. In manyexamples, the media delivery system 150 is a computing device of a mediadelivery system, such as a media content provider (e.g., a mediastreaming service). In an example the media delivery system 150 streams,progressively downloads, or otherwise communicates media content itemsto the media playback device 102 for playback.

In some embodiments, media delivery system 150 includes multiple serverdevices. The multiple server devices can be owned, managed, and/orcontrolled by the same or separate entities. Various actions performedby one or more servers can include analyzing user communications,performing party-specific actions, accessing and/or transmitting mediacontent, and the like.

It should be appreciated that the media playback device 102 need not bea single physical unit or structure but could itself comprise a systemof interconnected hardware, firmware, and software. Thus, for example,the media playback device 102 can be a combination of a smartphone orspecialized hand-held or vehicle-mountable device that is connected(through a hard connection or wireless connection) to an automobile'sspeakers, or other audio output device. As another example, the mediaplayback device 102 can include a Bluetooth™ connected speaker. In otherexamples, the media playback device 102 is communicatively linked orlinkable to hardware in the user's environment such as a home, anoffice, vehicle, or any location where media playback could bedesirable, etc.

FIG. 1 also shows an example media playback system 100 in which a groupplaylist is generated and played back to a group of users 130. In thisexample, the primary user U selects to generate a group playlist 120.The user U selects the other users to be included, which generallyinclude the other users in a gathering, for example, user A, user B, anduser C. (The group of users 130 is sometimes referred to herein as agroup of participating users, and the users of the group of users 130are sometimes referred to herein as participating users.) Then theplaylist 120 is played through the media playback device 102 for theuser U and participating users. A gathering of people generally refersto users in the same physical location, for example, a party, a car, orother gathering of people. In other example, a gathering may be avirtual gathering, such a telephone or video conference or through anonline gaming system.

In some embodiments, the media playback device 102 is a computingdevice, such as a handheld entertainment device, smartphone, tablet,watch, wearable device, or any other type of device capable of playingmedia content. In yet other embodiments, the media playback device 102is or includes an in-dash vehicle computer, laptop computer, desktopcomputer, television, gaming console, set-top box, network appliance,BLU-RAY DISC player, DVD player, media player, stereo, or radio.

FIG. 2 is a schematic block diagram of another example of the mediaplayback system 100, shown in FIG. 1, which includes the media playbackdevice 102 and the media delivery system 150, in data communicationacross the network 110.

Media playback device 102 can issue requests to access media content ata media server 260, for example, to stream music, video, or other formsof media content to media playback device 102. In response, the mediaserver 260 can populate a media content buffer with corresponding itemsof media content. The media server 260 can also communicate the selectedmedia content to media playback device 102. Alternatively, in someembodiments, the media playback device 102 plays media content itemsstored locally on the media playback device 102. Further, in at leastsome embodiments, the media playback device 102 plays media contentitems that are stored locally as well as media content items downloadedor streamed from another system.

In many examples, the media playback device 102 includes one or moreprocessor devices and a computer-readable medium storage device coupledto the one or more processor devices. The computer-readable mediumstorage device includes instructions that, when executed by the one ormore processor devices, cause the one or more processor devices toperform one or more of the various methods, operations, or processesdescribed herein.

Although for purposes of illustration a media playback device 102 andmedia server 260 are shown, media delivery system 150 can supportsimultaneous use by a plurality of user devices 102. Similarly, mediaplayback device 102 can access media content items 233, 235, 237provided by a plurality of media servers 260, or switch betweendifferent media streams 232, 234, 236 provided by one or more mediaservers 260.

In at least some embodiments, the media playback device 102 includes atouch screen 202, a processing device 206, a memory device 208, acontent output device 216, a network access device 218, and alocation-determining device 220. Other embodiments may includeadditional, different, or fewer components. For example, someembodiments do not include one or more of the location-determiningdevice 220 or the touch screen 202.

The location-determining device 220 is a device that determines thelocation of the media playback device 102. In some embodiments, thelocation-determining device 220 uses one or more of the followingtechnologies: Global Positioning System (GPS) technology that mayreceive GPS signals from satellites, cellular triangulation technology,network-based location identification technology, wireless network(e.g., WI-FI) positioning systems technology, and combinations thereof.

The touch screen 202 operates to receive inputs 296 from a selector(e.g., a finger, stylus, etc.) controlled by the user U. In someembodiments, the touch screen 202 operates as both a display device anda user input device. In some embodiments, the touch screen 202 detectsinputs based on one or both of touches and near-touches. In someembodiments, the touch screen 202 displays a user interface 204 forinteracting with the media playback device 102. As noted above, someembodiments do not include a touch screen 202. Some embodiments includea display device and one or more separate user interface devices.Further, some embodiments do not include a display device.

The user interface 204 is adapted to display media options, for exampleas an array of media tiles, thumbnails, or other formats, and candetermine a user interaction or input. Selecting a particular mediaoption, for example a particular media tile or thumbnail, can be used asa command by a user and/or the media device, to the media server, todownload, stream or otherwise access a corresponding particular mediacontent item or stream of media content.

In some embodiments, the processing device 206 comprises one or morecentral processing units (CPU). In other embodiments, the processingdevice 206 additionally or alternatively includes one or more digitalsignal processors, field-programmable gate arrays, or other electroniccircuitry.

The memory device 208 operates to store data and instructions. In someembodiments, the memory device 208 stores instructions for amedia-playback engine 210 that includes the group playlist application212. In some embodiments, the media-playback engine 210 selects andplays back media content and generates interfaces for selecting andplaying back media content items.

The media-playback engine 210 includes a group playlist application 212.The group playlist application 212 communicates with user interface 204to receive a request to generate a group playlist. The group playlistapplication 212 communicates with the media server application 238 toidentify media content items used to generate the playlist.

The group playlist application 212 includes one or more hardware and/orsoftware components operative to provide personalized playlistfunctionality. Playlist management functionality includes one or more ofselecting users, selecting one or more individual songs, removing one ormore individual songs, and playing playlists, among other functionality.In an example, the group playlist application 212 receives a commandfrom a first user and executes a command based thereon. Many operationsperformed by the group playlist application 212 include interacting withthe media server application 238. The group playlist application 270 mayalso be located at the media server application 238, which is describedin more detail below.

Some embodiments of the memory device 208 also include a media contentcache 214. The media content cache 214 stores media content items, suchas media content items that have been previously received from the mediadelivery system 150. The media content items stored in the media contentcache 214 may be stored in an encrypted or unencrypted format. The mediacontent cache 214 can also store decryption keys for some or all of themedia content items that are stored in an encrypted format. The mediacontent cache 214 can also store metadata about media content items suchas title, artist name, album name, length, genre, mood, era, etc. Themedia content cache 214 can also store playback information about themedia content items, such as the number of times the user has requestedto playback the media content item or the current location of playback(e.g., when the media content item is an audiobook, podcast, or the likefrom which a user may wish to resume playback).

The memory device 208 typically includes at least some form ofcomputer-readable media. Computer readable media includes any availablemedia that can be accessed by the media playback device 102. By way ofexample, computer-readable media include computer readable storage mediaand computer readable communication media.

Computer readable storage media includes volatile and nonvolatile,removable and non-removable media implemented in any device configuredto store information such as computer readable instructions, datastructures, program modules, or other data. Computer readable storagemedia includes, but is not limited to, random access memory, read onlymemory, electrically erasable programmable read only memory, flashmemory and other memory technology, compact disc read only memory,BLU-RAY DISCS, digital versatile discs or other optical storage,magnetic cassettes, magnetic tape, magnetic disk storage or othermagnetic storage devices, or any other medium that can be used to storethe desired information and that can be accessed by the media playbackdevice 102. In some embodiments, computer readable storage media isnon-transitory computer readable storage media.

Computer readable communication media typically embodies computerreadable instructions, data structures, program modules or other data ina modulated data signal such as a carrier wave or other transportmechanism and includes any information delivery media. The term“modulated data signal” refers to a signal that has one or more of itscharacteristics set or changed in such a manner as to encode informationin the signal. By way of example, computer readable communication mediaincludes wired media such as a wired network or direct-wired connection,and wireless media such as acoustic, radio frequency, infrared, andother wireless media. Combinations of any of the above are also includedwithin the scope of computer readable media.

The content output device 216 operates to output media content. In someembodiments, the content output device 216 generates media output forthe user U and other users in the group. Examples of the content outputdevice 216 include a speaker assembly comprising one or more speakers,an audio output jack, a Bluetooth™ transmitter, a display panel, and avideo output jack. Other embodiments are possible as well. For example,the content output device 216 may transmit a signal through the audiooutput jack or Bluetooth™ transmitter that can be used to reproduce anaudio signal by a connected or paired device such as headphones, aspeaker system, or a vehicle head unit.

The network access device 218 operates to communicate with othercomputing devices over one or more networks, such as the network 110.Examples of the network access device include one or more wired networkinterfaces and wireless network interfaces. Examples of wireless networkinterfaces include infrared, Bluetooth™ wireless technology,802.11a/b/g/n/ac, and cellular or other radio frequency interfaces.

The network 110 is an electronic communication network that facilitatescommunication between the media playback device 102 and the mediadelivery system 150. An electronic communication network includes a setof computing devices and links between the computing devices. Thecomputing devices in the network use the links to enable communicationamong the computing devices in the network. The network 110 can includerouters, switches, mobile access points, bridges, hubs, intrusiondetection devices, storage devices, standalone server devices, bladeserver devices, sensors, desktop computers, firewall devices, laptopcomputers, handheld computers, mobile telephones, vehicular computingdevices, and other types of computing devices.

In various embodiments, the network 110 includes various types of links.For example, the network 110 can include wired and/or wireless links,including Bluetooth™, ultra-wideband (UWB), 802.11, ZIGBEE, cellular,and other types of wireless links. Furthermore, in various embodiments,the network 110 is implemented at various scales. For example, thenetwork 110 can be implemented as one or more vehicle area networks,local area networks (LANs), metropolitan area networks, subnets, widearea networks (such as the Internet), or can be implemented at anotherscale. Further, in some embodiments, the network 110 includes multiplenetworks, which may be of the same type or of multiple different types.

The media delivery system 150 comprises one or more computing devicesand provides media content items to the media playback device 102 and,in some embodiments, other media-playback devices as well. The mediadelivery system 150 includes a media server 260. Although FIG. 2 shows asingle media server 260, some embodiments include multiple mediaservers. In these embodiments, each of the multiple media servers may beidentical or similar to that shown in FIG. 2 and may provide similarfunctionality (e.g., to provide greater capacity and redundancy, or toprovide services from multiple geographic locations). Alternatively, insome embodiments, some of the multiple media servers may performspecialized functions to provide specialized services (e.g., the groupplaylist application 270 can be provided by a specialized server.

The media server 260 transmits stream media 294 to media-playbackdevices such as the media playback device 102. In some embodiments, themedia server 260 includes a media server application 238, mediaapplication interface 250, group playlist application 270, a processingdevice 222, a memory device 224, and a network access device 226. Theprocessing device 222, memory device 224, and network access device 226may be similar to the processing device 206, memory device 208, andnetwork access device 218 respectively, which have each been previouslydescribed.

In some embodiments, the media server application 238 streams music orother audio, video, or other forms of media content. The media serverapplication 238 includes a media streaming service 240, a media datastore 242, a media application interface 250, and a group playlistapplication 270. The media streaming service 240 operates to buffermedia content such as media content items 233, 235, and 237, forstreaming through one or more streams 232, 234, and 236, as stream media294.

Media server 260 can provide a subscription-based media streamingservice 240, for which media playback device 102, or the user, can havean associated account and credentials, and which enable the mediaplayback device 102 to communicate with and receive content from themedia server 260. A received media-access request from the mediaplayback device 102 can include information such as, for example, anetwork address, which identifies the media playback device 102 to whichthe media server 260 should stream or otherwise provide media contentitems 233, 235, 237, in response to processing the media-access request.

The media application interface 250 can receive requests or othercommunication from media playback device 102 or other systems, toretrieve media content items from the media server 260. For example, themedia application interface 250 receives communication 290 from themedia-playback engine 210.

In some embodiments, the media data store 242 stores media content items244, media content metadata 246, and playlists 248. The media data store242 may comprise one or more databases and file systems. As noted above,the media content items 244 may be audio, video, or any other type ofmedia content, which may be stored in any format for storing mediacontent.

Media content items 244 can include media content, for example, music,songs, videos, movies, or other media content, together with metadatadescribing that media content.

The media content metadata 246 operates to provide various informationassociated with the media content items 244. In some embodiments, themedia content metadata 246 includes one or more of title, artist name,album name, length, genre, mood, era, etc. The metadata can be used toenable users and the media playback device 102 to search withinrepositories of media content, to locate particular media content items244.

The playlists 248 operate to identify collections of one or more of themedia content items 244 and in some embodiments, the playlists 248identify a group of the media content items 244 in a particular order.In other embodiments, the playlists 248 merely identify a group of themedia content items 244 without specifying a particular order. Theplaylists 248 may include user-generated playlists, which may beavailable to a particular user, a group of users, or to the public, andcomputer-generated playlists that are generated automatically.

The group playlist application 212 can receive requests or othercommunication 290 from media playback devices 102 or other systems togenerate and/or retrieve a group playlist 120 that is custom generatedfor playback to the particular group of users 130. In some embodiments,group playlist application 212 includes one or more of a friendsdatabase 272, taste profile database 274, and vector space application276.

The friends database 272 can store information related to registeredusers of the media delivery system 150. For example, the friendsdatabase 272 stores connection information of users. In another example,friends database 272 can communicate with other social media platformsto identify and recommend new connections to users, or to identifyconnections between users.

The taste profile database 274 maintains the taste profile informationfor each user. Taste profiles are determined, for example, based on theuser media consumption history. The media consumption history of theuser includes, for example, the songs, artists, genres, and othersimilar attributes of media content that the user has listened to orotherwise consumed. In some embodiments the taste profile of each userincludes the user's media consumption history. The media consumptionhistory includes a list of media content items that have been previouslyconsumed (such as, listened to or watched) by the user. In comeembodiments the media consumption history is limited to a time range,such as within the past hour, a number of days, a number of years, andthe like. Or, the media consumption history can be filtered to returnonly media content items consumed during the time range.

The vector space application 276 receives or obtains user taste profileinformation and media content item information. The vector spaceapplication 276 can generate and analyze vectors for individual usertaste profiles, average user taste profiles, and media content items ina multi-dimensional vector space. The multi-dimensional vector space caninclude many different dimensions, where each dimension represents adifferent characteristic of media content and musical taste, such thatplotting of the vectors within the multi-dimensional vector space allowsfor identification and analysis of similarities and differences betweenthe characteristics of media content and of musical taste profiles. Insome embodiments the vector space application 276 includes algorithmsfor computing values representative of the similarity and differencesbetween vectors, such as by computing distances between the vectors inthe vector space. In some embodiments the vector space application 276utilizes cosine difference or cosine similarity algorithms to computecosine difference or cosine similarity values.

Each of the media playback device 102 and the media delivery system 150can include additional physical computer or hardware resources. In atleast some embodiments, the media playback device 102 communicates withthe media delivery system 150 via the network 110.

Although in FIG. 2 only a single media playback device 102 and mediadelivery system 150 are shown, in accordance with some embodiments, themedia delivery system 150 can support the simultaneous use of multiplemedia-playback devices, and the media-playback device can simultaneouslyaccess media content from multiple media-delivery systems. Additionally,although FIG. 2 illustrates a streaming media based system for mediaplayback, other embodiments are possible as well. For example, in someembodiments, the media playback device 102 includes the media data store242 and the media playback device 102 is configured to select andplayback media content items without accessing the media delivery system150. Further, in some embodiments, the media playback device 102operates to store previously streamed media content items in a localmedia data store (e.g., the media content cache 214).

In at least some embodiments, the media delivery system 150 can be usedto stream, progressively download, or otherwise communicate music, otheraudio, video, or other forms of media content items to the mediaplayback device 102 for playback during travel on the media playbackdevice 102. In accordance with an embodiment, a user U can direct input296 to the user interface 204 to issue requests, for example, togenerate a group playlist for playback on the media playback device 102.

FIG. 3 illustrates an example method 300 of generating a group playlist120, shown in FIG. 1. In the illustrated example, the method 300includes operations 302, 304, 306, and 308.

The group playlist 120 is generated for playback to the group of users130 (shown in FIG. 1). The group of users 130 can include the primaryuser U, also referred to herein as a first user, and other users, suchas users A, B, and C.

At the operation 302, a request is received to generate a group playlist120. For example, the first user selects an option in a user interfaceto request the group playlist. The request may be received by a userinterface such as shown in FIG. 4.

In an alternative embodiment, when the music streaming applicationdetects that other users are nearby the first user, the group playlistapplication may present the option to generate the group playlist to thefirst user. For example, the group playlist application may detect thatother users are within a wireless communication (e.g., Bluetooth™) rangeof the first user or within a distance of the first user's mediaplayback device 102, and then prompt the first user with the option togenerate the group playlist. The user interface can be graphical (on adisplay device) or vocal (through a voice interface), for example.

At the operation 304, the group of users is identified. In a firstembodiment, a first user is able to select at least one other. In anexample, up to four other users are selected. In another embodiment,more than four other users can be selected. In yet another embodiment, afirst user is presented with a list of users that are in proximity tothe first user, such as within Bluetooth™ range, or within a distance ofthe first user's media playback device 102, and the first user mayselect any of those users. In yet another embodiment, the first user mayopt to have the application select the users that are in proximity. Inanother embodiment the selection of the group of users occursautomatically.

In another embodiment, when the music streaming application detects thatother users are nearby the first user, the group playlist applicationautomatically generates the group playlist and presents it to a firstuser for playback. For example, other users may be detected usingBluetooth™ capabilities of the media playback device 102, or may bedetected with another location-determining device, such as GPS, and thelike.

At the operation 306, the group playlist is generated including aplurality of media content items. The group playlist is a compilation ofmedia content items selected based on the users in the group of users.For example, based on the media consumption history of the selectedusers or the user taste profiles. As described in detail below, themedia content items selected for the playlist are selected so that theywill be enjoyed by all of the users in the group.

An example of operation 306 is illustrated and described in furtherdetail with reference to FIGS. 7-8.

At the operation 308, the group playlist is provided to the first userfor playback to the group of users. In an embodiment, only the firstuser is provided with the playlist. In another embodiment, all theparticipating users are provided with the playlist. The playlist may betransitory, and is not permanently saved for the first user, unless thefirst user selects an option to save the playlist. Alternatively, theplaylist may be added to the first user and/or all participating users'playlist databases.

FIG. 4 illustrates an example user interface 400 presented to a firstuser for generating a group playlist 120. In this example, the userinterface 400 includes selectable options 404, 406, and 408.

The option 404 is provided and can be selected by the user to requestthe generation of a group playlist 120. The selection of option 404 isan example of operation 302 in FIG. 3 for receiving a request togenerate the group playlist 120.

The option 406 is provided and can be selected to initiate the selectionof other users in the group. In some embodiments, upon selection ofoption 406, a user interface 500 is displayed as shown in FIG. 5, toallow the first user to select the other users in the group.

Alternatively, the option 408 is provided and can be selected toinitiate automatic finding of users, such as based on their proximity tothe first user's media playback device 102.

FIG. 5 illustrates an example user interface 500 for selecting a groupof users for whom to generate the group playlist 120, as describedherein.

In the example shown, a display 502 of multiple users is presented forthe first user to select from. Each user may be represented by apictorial representation 504 and/or a name 506, for example.

In some embodiments the display 502 of users includes the first user'smost frequent or closest connections. In another embodiment, the display502 includes a list of the users that are currently in proximity to thefirst user. Proximity can be detected, for example, based on a GPSlocation, or based on wireless communications between mobile computingdevices associated with each user (such as the media playback device 102or another computing device, such as a smartphone, smartwatch, and thelike). In yet another possible embodiment, the display 502 includes asubset of users who are connected to the first user, and that have aclosest individual taste profile to the first user. Combinations ofthese are also possible (e.g., those in proximity and having a closestindividual taste profile).

The pictorial representations 504 and names 506 are selectable, and uponselection the corresponding user is added to the group. In someembodiments the selected users are highlighted or otherwise visuallyindicated in the display 502, so that the user can review the users thatare already selected. In another embodiment, a list of the users thathave been selected is displayed.

The user interface 500 can also include a search button 508, whichallows the first user to search for other users that are not initiallyshown in the display 502.

The first user may select the set of users to include in the group fromthe display 502, and then select the generate group playlist button 510when done. In some embodiments the number of users in the group islimited, such as in a range from 2 to 15 users, and as one example, amaximum of four users.

FIG. 6 illustrates an example method 600 of generating a group playlist120. The method 600 is an example of the operation 306 shown in FIG. 3.The example method 600 includes operations 602, 604, 606, 608, 610, and612. Other embodiments have more, fewer, or different operations thanthe example shown in FIG. 6.

In some embodiments the method 600 is performed at a server, such as themedia server 260, and more specifically for example as part of the groupplaylist application 270, shown in FIG. 2. In another possibleembodiment, the method 600 is performed by a media playback device 102,which may be, for example, part of the group playlist application 212.The operations can also be distributed across multiple servers 260 ordevices 102 as well.

After a group of users 130 has been identified, such as using the userinterface 400 shown in FIG. 4, the method 600 is performed to generate agroup playlist 120 containing media content items selected based on thegroup of users 130.

In one example, the method 600 begins by analyzing the taste profiles ofeach of the individual users in the group of users 130. The operation602 is performed to identify the individual taste profiles of each user.The individual taste profiles store data describing taste preferences ofthe user. Examples of taste preferences include media content itemspreviously consumed, names of artists whose media content items are mostfrequently consumed, genres of media content items most frequentlyconsumed, a diversity of media content items consumed (e.g.,representative of whether the user prefers only a single type of music,or whether the user has a wide and varied taste in music). As anotherexample, the individual taste profile can be based on or include themedia consumption history of the user, such as a list of media contentitems previously consumed by the user in the media playback system 100.Individual taste profiles are described in further detail herein withreference to FIGS. 7-8.

As another example, the operation 602 involves generating an individualtaste profile vector, which is a vector representation of the individualtaste profile in a multi-dimensional vector space. The individual tasteprofile vector can be generated, for example, by first generating mediacontent item vectors associated with media content items in the mediaconsumption history of the user, and then generating an average mediacontent item vector as the individual taste profile vector of the user.Other factors or algorithms can also be used in generating theindividual taste profile vector. For example, in some embodiments themedia consumption history is limited by a particular date range, such asthose that have been consumed within a predetermined period of time(e.g., 30 days, 90 days, 120 days, 1 year, 2 years, etc.).

After the individual taste profiles have been identified, operation 604is performed to generate a taste profile for the group of users 130 as awhole. The taste profile for the group can be similar to the individualtaste profiles and are determined based on the individual taste profilesof each user in the group 130. In one example, the taste profile for thegroup is computed as an average of the individual taste profile vectors,to generate a group taste profile vector, which is a vectorrepresentation of the group taste profile in the multi-dimensionalvector space. Other factors or algorithms can also or alternatively beused to generate the group taste profile.

The operation 606 is performed to identify and compile candidate mediacontent items from the media consumption histories of each user, ascandidates to be used in the group playlist 120. In some embodiments,the media consumption histories of each user include a list of mediacontent items previously consumed by the respective user.

In one example, the a list of candidate media content items is compiledthat contains all of the media content items from the media consumptionhistory of each of the users in the group of users 130. However, if theusers have an extensive history, this could result in a very large list.Therefore, in some embodiments the media content items identified fromthe media consumption history of each user is limited in some way, suchas by selecting only a predetermined quantity of the most frequentlyconsumed media content items (e.g., a user's top 100, 500, or 1000listened to songs), or by selecting only the most recently listened tomedia content items (e.g., those consumed in the past 30, 60, 90 days,etc.).

In one example, the operation 606 filters the media content items in auser's media consumption history to those consumed within the last sixmonths, and then selects the media content items most frequentlyconsumed by the user over that period of time. Alternatively, additionalor different factors can be used to select the users top media contentitems, such as the frequency of consumption, a frequency that the userskips the items, frequency of the user specifically searching for themedia content item, or other factors that identify a track as a favoriteby the user. Further examples of identifying and compiling the mediacontent items is described in more detail below with reference to FIG.9.

Filtering and limiting the number of media content items contained inthe list of candidate media content items can greatly decrease theprocessing time and computer processing required to analyze the mediacontent items.

In some embodiments, additional factors can be applied to identify orremove media content items from the list of candidate media contentitems. For example, if one or more of the users in the group of users130 have enabled an explicit filter in their account, then media contentitems flagged as containing explicit content are not included in thelist of candidate media content items. In another example, if a userfrequently skips a particular media content item, the skip frequency canbe used to eliminate a media content item from the list of candidatemedia content items for the group.

The operation 608 is performed to analyze the individual media contentitems from the list of candidate media content items, in preparation forcomparing the individual media content items to the taste profile of thegroup. In one example, a media content item vector is generated for eachof the items in the list of candidate media content items. The mediacontent item vector is a vector representation of the media content itemin the multi-dimensional vector space, which identifies characteristicsof the media content items.

The operation 610 is then performed to compare the media content itemsin the list of candidate media content items with the taste profile forthe group. The comparison determines similarities and differencesbetween the individual media content items and the group taste profile.

As one example, the media content item vector for a particular mediacontent item is compared with the group taste profile vector. Thecomparison can include multiple factors. One possible factor is adistance between the particular media content item and the group tasteprofile vector, in the multi-dimensional space. The closer the vectorsare together (resulting in a smaller distance between them), the moresimilar the characteristics of the media content item are to the tasteprofile of the group of users 130. Correspondingly, the further awaythey are (resulting in a greater distance), the more dissimilar. Eachmedia content item can be similarly evaluated to provide a means forcomparing the media content items of the list of candidate media contentitems to one another.

In some embodiments, the comparison comprises generating a similarityscore for each media content item in the list of candidate media contentitems. In one example, the similarity score is the distance in themulti-dimensional vector space, where (as discussed above) the lower thescore the greater the similarity. In another example, an algorithm isused to compute the score based at least in part on the distance.Examples of suitable algorithms include cosine similarity and cosinedistance. The cosine similarity algorithm generates a numerical score ona scale from −1 to +1, where +1 represents a complete similarity betweenthe media content item characteristics and the group taste profile, and−1 represents that the media content item characteristics are completelyopposite to the group taste profile. The cosine distance algorithm canbe used to compute a score from 0 to 1, where 1 indicates completesimilarity, and 0 indicates a complete lack of similarity. The cosine oftwo (non-zero) vectors can be computed using the Euclidean dot productformula, where the cosine similarity is the product of their lengthstimes the cosine of an angle between the vectors. An example of thevector comparison and scoring is illustrated and described in furtherdetail herein with reference to FIG. 10. In some embodiments, thesimilarity score is referred to as a likability score, because it can beused as a measure of an extent to which the group of users is likely toenjoy a media content item.

As noted above, it takes some time and processing power to compute eachof the similarity scores, and therefore, by limiting the number of mediacontent items included in the list of candidate media content items inthe manners discussed above, the time and processing power requirementsare also reduced.

Further, the vector analysis (plotting on a multi-dimensional vectorspace) provides a much more efficient and direct way of analyzing eachmedia content item and comparing with a group taste profile vector. Analternative technique of performing audio and voice recognition analysison each media content item each time a comparison is desired, althoughpossible, would be much more complex and time consuming. In the vectoranalysis, once a media content item vector is generated, the vector canbe stored in a database (such as by the vector space application 276,FIG. 2) for future use, and analysis of the raw audio characteristics orlyrics of a media content item is no longer needed, because theinformation needed to conduct further analysis is contained in thevector representation.

In some embodiments the operation 608 further includes ranking the mediacontent items in the list of candidate media content items based on thecomparison. For example, the media content items can be ranked based onthe similarity score. In some embodiments the list of candidate mediacontent items are sorted from highest score (most similar) to lowestscore (least similar).

The operation 612 is performed to generate the group playlist 120 fromthe list of candidate media content items based on the comparisonperformed in operation 610. In some embodiments, the generation of thegroup playlist 120 includes both selecting media content items andarranging the selected media content items into a particular sequence.

Typically a finite predetermined quantity of media content items isselected for the group playlist 120. The predetermined quantity can be,for example, 100 media content items, or another quantity (e.g., 10, 50,200, 1000). In some embodiments the predetermined quantity is selectedto provide an overall length of play of the playlist 120 that is greaterthan an estimated maximum length of a gathering of a group of users.

Selection of the media content items can involve, for example, selectingthe predetermined quantity of media content items having a highestsimilarity score as compared with the group taste profile. For example,the top 100 media content items are selected from the list of candidatemedia content items. Selection can include selecting the firstpredetermined quantity of media content items when the list of candidatemedia content items is ranked and sorted according to the ranking.

Some embodiments of operation 612 include an exclusion step, whichfurther requires that a similarity score exceed a predeterminedthreshold in order to be included in the group playlist. Those that donot exceed the threshold are removed from the list of candidate mediacontent items, and are not selected for inclusion in the group playlist120. One example of the exclusion threshold is 0.3 on the −1 to +1cosine similarity scale, such that a media content item with a score of0.3 or less is excluded from consideration for the group playlist 120.The exclusion step is most likely to be used when one or more users inthe group have a limited media consumption history. For example if aparticular user has only listened to 5 songs, and 2 of the songs fallbelow the exclusion threshold, then those two songs will be excludedfrom consideration even though only 3 songs remain. The exclusion stephelps to ensure that the media content items selected for the groupplaylist have at least a minimum similarity to the group taste profile,and helps to avoid having media content items selected that the group isunlikely to enjoy.

Some embodiments of operation 612 include a user contribution step thatoperates to select media content items from the listening histories ofeach of the users of the group of users 130, even if some of the mediacontent items that are selected as a result have a lower similarityscore to the group taste profile. This step ensures that, when possible,the group playlist 120 includes contributions of media content itemsfrom the listening histories of each of the users in the group of users130, and in some embodiments ensures that the contribution is uniformfrom each user.

One example of the user contribution step involves determining acontribution threshold, and choosing not to select additional mediacontent items from a particular user's media consumption history if theinclusion would cause the group playlist 120 to exceed the contributionthreshold. An example of the contribution threshold is 50%. With thisthreshold, the operation 612 does not select more than 50% of the mediacontent items from a particular user's media consumption history for thegroup playlist 120.

In another possible embodiment, media content items are selecteduniformly. For example, the selection can occur iteratively for eachuser. For a group having four users, the selection process williteratively select one media content item from each user's mediaconsumption history in turn, starting with user U, then user A, user B,and user C, and then repeating the process until all media content itemshave been selected. This results in a uniform contribution from themedia consumption history of each user. As discussed above, in somecases one or more user listening histories may not have sufficient mediacontent, in which case an exception can be made, for example, byproceeding to selection media content items from only the other users,or by stopping the selection and completing the group playlist 120 withthose that have been selected to that point.

In another possible embodiment, if a user does not have sufficient mediaconsumption history, a search can be performed based on the user's tasteprofile to identify additional content that, although the user may nothave consumed it before through the media playback system 100, it issimilar to the user's taste profile and therefore likely to be enjoyedby the user. Such items identified in the search can then be used forsubsequent contributions for that user.

Some embodiments of operation 612 further include an artist limitation,which applies an artist threshold quantity of media content items thatcan be selected by a particular artist. The artist limitation step helpsto ensure a diversity of artists be included in the group playlist 120.In one example, the artist threshold is in a range from one to 50, orfrom two to ten. A particular example of the artist threshold quantityis four. In addition, some embodiments also apply an artist sequencelimitation, which adjusts the sequence of media content items in thegroup playlist 120 to prevent a number of media content items from thesame artist from being played back-to-back. In some embodiments theartist sequence limitation is applied to distribute the media contentitems by the same artist so that no two of the media content items areplayed sequentially, one after the other. Further, in some embodiments aminimum separation threshold identifies a minimum number of mediacontent items that must be arranged between items by the same artist.For example, the minimum number is in a range from about 3 to about 20,or in a range from about 5 to 10, or is exactly 8.

In some embodiments the sequence of media content items is based on theorder of selection, such that the first media content item selected isarranged as the first in the sequence, and so on. In some embodiments,the order is adjusted using a sequence adjustment. In some embodiments,the sequence is selected to rotate between contributions from each user.

FIG. 7 illustrates example taste profiles 700 for individual users. Eachindividual user (user a, b, c, and x) has their own individual tasteprofile 700 a, 700 b, 700 c, 700 x which contains a variety of profiledata 704.

In some embodiments, each user taste profile is a representation ofmusical activities, such as user preferences and historical informationabout the user's consumption of media content, and can include a widerange of information such as artist plays, song plays, skips, dates oflistening by the user, songs per day, playlists, play counts,start/stop/skip data for portions of a song or album, contents ofcollections, user rankings, preferences, or other mentions received viaa client device, or other media plays, such as websites visited, booktitles, movies watched, playing activity during a movie or otherpresentations, ratings, or keywords corresponding to the media, etc.

In addition, the user taste profiles can include other information. Forexample, the user taste profiles can include libraries and/or playlistsof media content items associated with the users. The user tasteprofiles can also include information about the user's relationships(e.g., connections or friendships) with other users.

A user taste profile can be associated with an individual user and usedto maintain an in-depth understanding of the media content consumptionactivity and preferences of the user, enabling personalizedrecommendations and taste profiling.

FIG. 8 is a schematic diagram illustrating an example method 800 ofgenerating a group taste profile 804. In this example, the method 800 isperformed using a group taste profile generator 802. Also shown in FIG.8 are the users a, b, c, and x; individual taste profiles 700 a, b, c,and x; and media consumption histories 706 a, b, c, and x of each user.

In some embodiments, the media delivery system 150 maintains a tasteprofile database 274, as shown in FIG. 2. The taste profile database 274can store the individual taste profiles 700 a, b, c, and x for eachuser, and can also include the media consumption histories 706 a, b, c,and x for each user. As discussed herein, in some embodiments theindividual taste profiles 700 a, b, c, and x include taste profilevectors, which are vector representations of the taste profiles in amulti-dimensional vector space.

The group taste profile generator 802 operates to generate a group tasteprofile 804 for the group 130, based on the taste profiles 700 a, b, c,and x of the users in the group 130. In one example, the group tasteprofile generator 802 identifies each of the individual taste profilesvectors, and computes the average of the individual taste profilevectors, which is then stored as a group taste profile vector. As usedherein, the term average can refer to the mean, or other algorithm forcomputing an average of vectors, such as median, and the like.

In some embodiments the taste profile 700 a, b, c, and x of each user iscomputed based at least in part on the user's media consumption history706 a, b, c, and x. As one example, the taste profile 700 a, b, c, and xincludes a taste profile vector that is computed as an average of mediacontent vectors associated with the media content items of the user'smedia consumption history 706 a, b, c, and x. Other embodiments can useadditional or different factors to compute the taste profile vectors.

In some embodiments the group taste profile generator 802 is part of thegroup playlist application 270, shown in FIG. 2.

FIG. 9 is a schematic block diagram illustrating an example method 900of generating a list of candidate media content items 904. The method900 is also an example of the operation 606, shown in FIG. 6, thatidentifies and compiles a list of candidate media content items frommedia consumption histories of each user. In some embodiments the method900 is performed by a candidate content selector 902.

In one example, the candidate content selector 902 identifies the mediaconsumption history 706 for each user, and retrieves from the history asubset of the media content items listed therein. The selection isdiscussed herein in further detail, such as with reference to operation606.

Once the media content items are selected, the candidate contentselector 902 generates the list of candidate media content items 904,that includes a list of the content items that were selected from themedia consumption histories 706 a, 706 b, 706 c, and 706 x.

FIG. 10 is a schematic diagram illustrating of an examplemulti-dimensional vector space, and illustrating an example method ofanalyzing and comparing individual media content items of a list ofcandidate media content items with a group taste profile. The method isan example of operations 608 and 610 shown in FIG. 6.

Although for ease of illustration the example vector space includesthree dimensions (x, y, and z), typical vector spaces have moredimensions, such as in a range from 10 to 100 dimensions (e.g., 20 or 40dimensions). More or fewer dimensions can also be used.

A group taste profile vector 1002 is shown plotted in themulti-dimensional vector space 100, which is a vector representation ofthe taste profile of the group of users.

An example set of four media content item vectors 1004, 1006, 1008, and1010 are also shown plotted in the multi-dimensional vector space. Thevectors 1004, 1006, 1008, and 1010 are vector representation of themedia content item characteristics associated with four media contentitems included in the list of candidate media content items 904, such asshown in FIG. 9.

To compare the media content items with the group taste profile,distances can be computed between the vectors. In this example, D1 is adistance between the media content item vector 1004 and the group tasteprofile vector 1002, D2 is the distance between the media content itemvector 1006 and the group taste profile vector 1002, D3 is the distancebetween the media content item vector 1008 and the group taste profilevector 1002, and D4 is the distance between the media content itemvector 1010 and the group taste profile vector 1002. Further, in thisexample D3<D2<D4<D1. Therefore, the media content item associated withvector 1008 has the most similarity to the group taste profile vector1002 (and group taste profile) because the distance D3 is the shortest,whereas the media content item associated with vector 1004 has the leastsimilarity to the group taste profile vector 1002 (and group tasteprofile) because the distance D1 is the longest.

As discussed herein, in some embodiments the distances D1, D2, D3, andD4 are used to generate a similarity score.

FIG. 11 illustrates an example user interface 1100 for displaying andplayback of the group playlist 120, such as can be generated anddisplayed by the media playback device 102. In this example, the groupplaylist 120 includes a list of tracks, including tracks 1102 a, 1102 b,1102 c, 1102 d. In addition, the user interface 1100 may include anoverflow menu 1104 that allows a user to save songs, identify songs asfavorites, or remove songs. Alternatively, a user is able to swipe leftor right to save songs that are in the playlist, so the user can easilyfind the song again. Users can also favorite or ban a song. A playbutton 1110 can be selected to begin playback of the group playlist 120.

The example user interface 1100 also includes a display of the playlisttitle 1106 (e.g., “Group Playlist”) and icons 1108 representing each ofthe users of the group of users 130. In some embodiments the icons 1108are images from the profile of each user, which can include for examplea picture of the user, or other image selected by the user. The icons1108 allow the user to quickly see and identify the users in the groupof users 130 for which the group playlist 120 was made. In someembodiments the icons 1108 are selectable to display the list of theusers.

Once the play button 1110 is selected the tracks 1102 a, b, c, and areplayed in order. The display can update as tracks are played to showadditional tracks in the group playlist 120. In some embodiments theuser interface is scrollable to view additional tracks as well, such asby swiping up or down, or clicking and dragging up or down.

Some embodiments include a shuffle play option to allow the mediacontent items of the group playlist 120 to be played in a randomizedorder.

The operations and processes described herein can be performed by thecooperation of two or more devices, systems, processes, or combinationsthereof.

The various embodiments described above are provided by way ofillustration only and should not be construed to limit the claimsattached hereto. Those skilled in the art will readily recognize variousmodifications and changes that may be made without following the exampleembodiments and applications illustrated and described herein, andwithout departing from the full scope of the following claims.

What is claimed is:
 1. A method of generating a playlist of mediacontent items for a group of users, the method comprising: identifying afirst user of the group and determining a first user taste profile;identifying a second user of the group and determining a second usertaste profile; generating a group taste profile based on at least thefirst and second user taste profiles, and generating a group tasteprofile vector in a multi-dimensional vector space representing thegroup taste profile; generating a list of candidate media content itemsselected from at least a first user media consumption history of thefirst user and a media consumption history of the second user, andgenerating media content item vectors for each of the candidate mediacontent items in the multi-dimensional vector space; for each of thecandidate media content items in the list of candidate media contentitems, computing a distance between the respective media content itemvector and the group taste profile vector, and ranking the list ofcandidate media content items based on the distance; and generating aplaylist selected from the ranked list of candidate media content items.2. The method of claim 1, further comprising computing a similarityscore for each of the candidate media content items in the list ofcandidate media content items based on the distance.
 3. The method ofclaim 2, wherein the similarity score is calculated using a Cosinesimilarity function.
 4. The method of claim 3, wherein the ranking isbased on the similarity score.
 5. The method of claim 2, whereingenerating the playlist further comprises selecting only media contentitems having a similarity score that exceeds an exclusion threshold. 6.The method of claim 1, wherein generating a group taste profile based onat least the first and second user taste profiles comprises computing anaverage of at least the first and second user taste profiles.
 7. Themethod of claim 1, wherein generating the playlist comprises selectingfrom the ranked list of candidate media content items such that theplaylist contains no more than a threshold quantity of media contentitems from a single artist.
 8. The method of claim 7, further comprisingselecting such that the media content items from a single artist areseparated in the playlist by at least a separation threshold.
 9. Themethod of claim 1, wherein the second user is automatically identifiedbased on proximity to the first user.
 10. The method of claim 1, whereinthe media content items selected for the playlist are selected toinclude a uniform contribution of media content items from the mediaconsumption histories of at least the first and second users.
 11. Asystem comprising non-transitory memory and at least one processingdevice in data communication with the memory, wherein the memory storesdata instructions that, when executed by the at least one processingdevice, cause the at least one processing device to: receive a requestto generate a group playlist for a group; identify a first user of thegroup and determine a first user taste profile; receive a selection ofat least one other user of the group and determine a user taste profilefor the at least one other user of the group; generate a group tasteprofile based on an average of the first user taste profile and the usertaste profile for the at least one other user of the group, andrepresent the group user taste profile as a group profile vector in amulti-dimensional vector space, the dimensions of the multi-dimensionalvector space corresponding to characteristics of media content; generatea list of candidate media content items from media consumption historiesof the first user and the at least one other user of the group, andgenerate media content item vectors for each of the candidate mediacontent items of the list of candidate media content items in themulti-dimensional vector space; rank the candidate media content itemsof the list of candidate media content items based on a distance betweenthe respective media content item vector and the group taste profilevector; and generate the group playlist by selecting media content itemsfrom the ranked list of candidate media content items.
 12. The system ofclaim 11, wherein the instructions further cause the at least oneprocessing device to: compute a similarity score based on the distance,and use the similarity score to rank the media content items.
 13. Thesystem of claim 12, wherein the similarity score is calculated using aCosine similarity function.
 14. The system of claim 11, wherein theinstructions further cause the at least one processing device to: detectthat the first user is in proximity to other users; generate a graphicaluser interface displaying a selectable list of the other users inproximity to the first user; and wherein the receipt of the selection ofthe at least one other user of the group is selected through thegraphical user interface display of the selectable list of the otherusers.
 15. The system of claim 11, wherein the instructions furthercause the at least one processing device to generate the list ofcandidate media content items containing fewer than a sum of mediacontent items in the media consumption histories of all users in thegroup by selecting only a predetermined quantity of media content itemsfrom the media consumption histories of each user of the group to reducea number of candidate media content items considered.
 16. At least onenon-transitory computer-readable medium storing data instructions that,when executed by at least one processing device of a system, cause thesystem to: identify a first user of a group; determine a first usertaste profile of the first user; identify a second user of the group;determine a second user taste profile of the second user; generate agroup taste profile for the group based on at least the first and seconduser taste profiles; generate a group taste profile vector in amulti-dimensional vector space representing the group taste profile;generate a list of candidate media content items selected from at leasta first user media consumption history of the first user and a mediaconsumption history of the second user; generate media content itemvectors for each of the candidate media content items in themulti-dimensional vector space; for at least some of the candidate mediacontent items in the list of candidate media content items, compute adistance between the respective media content item vector and the grouptaste profile vector; determine a ranking of the at least some of thecandidate media content items of the list of candidate media contentitems based at least in part on the distances; and generate a groupplaylist selected from the list of candidate media content items basedat least in part on the ranking.
 17. The computer-readable medium ofclaim 16, wherein the instructions that cause the system to generate agroup taste profile vector further cause the system to generate thegroup taste profile vector as an average of at least the first andsecond user taste profiles.
 18. The computer-readable medium of claim16, wherein the group is a virtual group.
 19. The computer-readablemedium of claim 16, further comprising: playing the group playlist tothe group including at least the first user and the second user.
 20. Thecomputer-readable medium of claim 16, wherein the instructions furthercause the system to generate the group playlist such that the groupplaylist contains no more than a threshold quantity of media contentitems from a single artist.